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Spectral and Angular Responses of Surface Plasmon Resonance Based on the Kretschmann Prism Configuration

Authors
Gwon, Hyuk RokLee, Seong Hyuk
Issue Date
Jun-2010
Publisher
JAPAN INST METALS
Keywords
Kretschmann surface plasmon resonance (SPR) sensor; characteristic transmission matrix (CTM) method; full width at half maximum (FWHM); phase shift; enhancement of magnetic field intensity
Citation
MATERIALS TRANSACTIONS, v.51, no.6, pp 1150 - 1155
Pages
6
Journal Title
MATERIALS TRANSACTIONS
Volume
51
Number
6
Start Page
1150
End Page
1155
URI
https://scholarworks.bwise.kr/cau/handle/2019.sw.cau/22400
DOI
10.2320/matertrans.M2010003
ISSN
1345-9678
1347-5320
Abstract
The present study investigates the optical characteristics and the spectral and angular responses of a Kretschmann surface plasmon resonance (SPR) sensor configuration that is widely used in biological and chemical sensing applications In older to examine the influence of wave interference and optical properties of thin films on angular variation of reflectance at different incident angles, the Kretschmann SPR configurations made of gold films with 30, 52, and 70 nut thicknesses were fabricated and the reflectance was detected using a 633 not He-Ne laser. theta-2 theta rotation stages, and a silicon pin photo-detector In particular. this study involved the numerical analysis of angular and spectral variation of reflectance estimated using the characteristic transmission matrix (CTM) method It was found that the SPR sensitivity became highly dependent on the gold film thickness, indicating that in the thinner gold film case, the reflectance was recovered slowly after the SPR angle. whereas as the gold film thickness increased, the magnitude difference between the maximum and the minimum reflectance measured near the SIR angle was smaller than in other cases From the numerical analysis. it was shown that the phase shift is the most sensitive physical parameter for SPR sensor by comparing estimated FWHM values of reflectance, phase shift, and enhancement of magnetic field intensity Therefore. it was concluded that an appropriate metal thickness of around 50 nm was found for higher sensitivity [doi 10.2320/matertrans.M2010003]
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Lee, Seong Hyuk
공과대학 (기계공학부)
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